Development of MoNbVTx refractory high entropy alloy with high strength at elevated temperature

Due to a monolithic body-centered cubic solid solution structure, refractory high-entropy alloys (HEA) always exhibit high strength and good softening resistance at both ambient and elevated temperatures. However, high density and low plasticity at ambient temperature limit their widespread applications as one kind of potential structural materials. The present study investigated the microstructure and mechanical properties of MoNbVTx HEA with various Ta conent at both ambient and elevated temperatures. The sample of MoNbVTx (x = 0, 0.3, 0.5, 0.7, 1) all shows a monolithic BCC solid solution phase with a dendritic microstructure. The micro-segregation of constituent elements was caused by the non-equilibrium solidification. The alloys exhibit superior high temperature performance at 1000 degrees C and 1200 degrees C, with a certain degree of plasticity at ambient temperature. The MoNbVTa0.5 alloy possesses both excellent high temperature performance (sigma(0.2) =697 MPa, epsilon(p) = 35.4% at 1200 degrees C) and relatively low density (similar to 9.65 g/cm(3)), which is attributed to the solid solution strengthening effects and excellent thermal stability of constituent phase. Compared with commercial superal-loys, the present MoNbVTa HEAs possess the advantages of high temperature performance, making it a potential engineering material for structural application.